/* ---------------------------------------------------------------------- * Project: CMSIS DSP Library * Title: AppNodes.h * Description: Application nodes for Example 1 * * $Date: 29 July 2021 * $Revision: V1.10.0 * * Target Processor: Cortex-M and Cortex-A cores * -------------------------------------------------------------------- */ /* * Copyright (C) 2010-2021 ARM Limited or its affiliates. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an AS IS BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef _APPNODES_H_ #define _APPNODES_H_ #include #include template class Sink; template class Sink: public GenericSink { public: Sink(FIFOBase &src): GenericSink(src){ }; int prepareForRunning() final { if (this->willUnderflow()) { return(CG_SKIP_EXECUTION_ID_CODE); // Skip execution } return(0); }; int run() final { float32_t *b=this->getReadBuffer(); (void)b; return(0); }; }; template class Source; template class Source: GenericSource { public: Source(FIFOBase &dst): GenericSource(dst){}; int prepareForRunning() final { if (this->willOverflow()) { return(CG_SKIP_EXECUTION_ID_CODE); // Skip execution } return(0); }; int run() final{ float32_t *b=this->getWriteBuffer(); (void)b; return(0); }; }; template class ProcessingNode; template class ProcessingNode: public GenericNode { public: ProcessingNode(FIFOBase &src, FIFOBase &dst): GenericNode(src,dst){}; int prepareForRunning() final { if (this->willOverflow() || this->willUnderflow()) { return(CG_SKIP_EXECUTION_ID_CODE); // Skip execution } return(0); }; int run() final{ float32_t *a=this->getReadBuffer(); float32_t *b=this->getWriteBuffer(); (void)a; (void)b; return(0); }; }; template class ProcessingNode12:public GenericNode12 { public: ProcessingNode12(FIFOBase &src, FIFOBase &dst1, FIFOBase &dst2): GenericNode12(src,dst1,dst2){}; int prepareForRunning() final { if (this->willOverflow1() || this->willOverflow2() || this->willUnderflow()) { return(CG_SKIP_EXECUTION_ID_CODE); // Skip execution } return(0); }; int run() final{ IN *a=this->getReadBuffer(); OUTA *ba=this->getWriteBuffer1(); OUTB *bb=this->getWriteBuffer2(); (void)a; (void)ba; (void)bb; return(0); }; }; template class ProcessingNode13:public GenericNode13 { public: ProcessingNode13(FIFOBase &src, FIFOBase &dst1, FIFOBase &dst2, FIFOBase &dst3): GenericNode13(src,dst1,dst2,dst3){}; int prepareForRunning() final { if (this->willOverflow1() || this->willOverflow2() || this->willOverflow3() || this->willUnderflow()) { return(CG_SKIP_EXECUTION_ID_CODE); // Skip execution } return(0); }; int run() final{ IN *a=this->getReadBuffer(); OUTA *ba=this->getWriteBuffer1(); OUTB *bb=this->getWriteBuffer2(); OUTC *bc=this->getWriteBuffer3(); (void)a; (void)ba; (void)bb; (void)bc; return(0); }; }; template class ProcessingNode21: public GenericNode21 { public: ProcessingNode21(FIFOBase &srcA, FIFOBase &srcB, FIFOBase &dst):GenericNode21(srcA,srcB,dst){}; int prepareForRunning() final { if (this->willOverflow() || this->willUnderflow1() || this->willUnderflow2()) { return(CG_SKIP_EXECUTION_ID_CODE); // Skip execution } return(0); }; int run() final{ printf("ProcessingNode\n"); INA *a=this->getReadBuffer1(); INB *b=this->getReadBuffer2(); OUT *c=this->getWriteBuffer(); (void)a; (void)b; (void)c; return(0); }; }; #endif